Pharma Marketing Network

DECEMBER 21, 2020

Almost two decades after the human genome was sequenced, a trickle of new genetic medicines (i.e., those that modify the expression of an individual’s genes or repair abnormal genes) has entered clinical practice, including 11 RNA therapeutics, 2 in vivo gene therapies, and 2 gene-modified cell therapies.

Genetics 52

Genetics Medicine Gene Therapy Marketing 52

XTalks

MAY 4, 2021

Researchers at the University of California San Francisco (UCSF) and the Whitehead Institute have developed a novel CRISPR-based tool called “CRISPRoff” that can switch off genes in human cells through epigenetic editing without altering the genetic sequence itself. Epigenetic Editing with CRISPR.

DNA 98

DNA Gene Gene Silencing Genome 98

XTalks

MAY 4, 2021

Researchers at the University of California San Francisco (UCSF) and the Whitehead Institute have developed a novel CRISPR-based tool called “CRISPRoff” that can switch off genes in human cells without editing the genetic sequence itself. Epigenome Editing with CRISPR.

DNA 52

DNA Gene Gene Silencing Genome 52

pharmaphorum

JUNE 28, 2021

The reductions matched the efficacy of current therapies for ATTR amyloidosis that require chronic dosing such as Alnylam’s Onpattro (patisiran) and Ionis/Akcea’s Tegsedi (inotersen) – both gene-silencing agents which can cost around $450,000 a year. — Eric Topol (@EricTopol) June 26, 2021.

In-Vivo 105

In-Vivo Gene Editing Trials Drugs 105

Drug Discovery World

JANUARY 23, 2023

Kevin Hemphill, R&D Manager at PerkinElmer’s Horizon Discovery explores how base editing has emerged as an attractive gene editing option for researchers wanting to develop stem cell-based therapies. In addition, iPSC lines, despite their pluripotency, have skewed suitability towards certain cell types 12,13.

Gene Editing 52

Gene Editing Gene Engineer DNA 52